MXene/Fluoropolymer‐Derived Laser‐Carbonaceous All‐Fibrous Nanohybrid Patch for Soft Wearable Bioelectronics
Sign Up to like & getrecommendations! Published in 2023 at "Advanced Functional Materials"
DOI: 10.1002/adfm.202208894
Abstract: While state‐of‐the‐art skin‐adhering fibrous electrodes have distinct benefits in personal wearable bioelectronics, considerable challenges persist in the production of fibrous‐based soft conductive biosensing nanomaterials and their integration into efficient multisensing platforms. Here, an electrochemical‐electrophysiological multimodal… read more here.
Keywords: mxene fluoropolymer; laser carbonaceous; derived laser; wearable bioelectronics ... See more keywords
Recent Progress in Wearable Bioelectronics for Theranostics and Perspectives with Artificial Intelligence.
Sign Up to like & getrecommendations! Published in 2025 at "ACS applied materials & interfaces"
DOI: 10.1021/acsami.5c14054
Abstract: Wearable theranostics hold great promise in precision medicine and real-time monitoring of diseases, which are capable of performing both predictive analysis and therapeutics concurrently. This review, for the first time, provides a detailed description of… read more here.
Keywords: progress wearable; wearable bioelectronics; recent progress; medicine ... See more keywords
A review on electrode materials of supercapacitors used in wearable bioelectronics and implantable biomedical applications.
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DOI: 10.1039/d4mh01707b
Abstract: Supercapacitors, a class of electrochemical energy storage devices, offer a promising solution for powering wearable bioelectronics and implantable biomedical devices. Their high-power density, rapid charge-discharge capabilities, and long cycle life make them ideal for applications… read more here.
Keywords: energy; wearable bioelectronics; electrode materials; implantable biomedical ... See more keywords
Current Progress in Conductive Hydrogels and Their Applications in Wearable Bioelectronics and Therapeutics
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DOI: 10.3390/mi14051005
Abstract: Wearable bioelectronics and therapeutics are a rapidly evolving area of research, with researchers exploring new materials that offer greater flexibility and sophistication. Conductive hydrogels have emerged as a promising material due to their tunable electrical… read more here.
Keywords: current progress; progress conductive; wearable bioelectronics; conductive hydrogels ... See more keywords